40 ADP200 • Quick installation guide - Specifications and connection
7.3.2 Typical connection diagram
Figure 7.3.2.1: Typical connection diagram (ADP200-4300 ...5550 sizes)
+ 24V IO
L1
M1
K1M
5
L1
L2
L3
N
PE
0 V IO
C
D
1
2
3
4
6
SMPS
DIO CM
12
11
10
4
9
DI 5X
EN HW (Enable)
57
56
55
54
43
42
Analog input 1XAnalog input 2X
-
40
41
-
+
+
E
L2
L3
U
V
W
DI 3X
DI 2X
DI 1X
27
DO 1
M
3~
8
76
5
EXP-RES
-I1-ADP
RO 2O
RO 2C
(Relay 2)
DI 4X
29
26
DO PS
DO 2
BR1
BR2
Braking resistor (optional)
L1
(1)
F1
K1M
81
80
Mot -
Mot +
Analog
output 1
46
45
71
70
72
24V
IN+
0 V
99 (T2)
RO 1O
RO 1C
(Relay 1)
3
DI 6X
RS485
PC
CAN
GND
H
L
KEYPAD / DCP
KB-ADV100
(optional)
Prg
Enter
FWDn=0ILIMENCNT AL
CAN
Internal Keypad
Analog input 1 (Sensor)Motor
protection
input
CAN to PLC
(Optional)
Drive Ready (to PLC)
+ 24V (from PLC)
Fault State (to PLC)
+ 24V (from PLC)
Fault Reset (from PLC)
Start (from PLC)
Enable (from PLC)
Pressure
Sensor
PRESSURE
SENSOR
Speed feedback
PLC
Pressure command
Flow rate command
Motor
protection
8 (EXC -)
9 (EXC +)
10 (COS -)
11 (COS +)
12 (SIN -)
13 (SIN +)
(2)(2)
(3) (3) (3) (3)
(1) ADP2075 ... 4300: Integrated choke on DC link.
(2) Connect resolver shield directly to chassis as shown on g. 7.2.4.
(3) Connect the shields of Motor protection, Analog Input 1/2X and Analog Output signals directly to chassis (or to terminal 99 of T3 strip) as shown on gure 7.2.4.
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